M.S. in Aerospace Engineering
Embry-Riddle Aeronautical University's Master of Science (M.S.) in Aerospace Engine...
B.S. in Electrical Engineering
Daytona Beach, Florida, Prescott, Arizona
INTAKE: Jan, May & Aug
Program Overview
The B.S. in Electrical Engineering at Embry-Riddle Aeronautical University provides a comprehensive education in electrical engineering principles and applications. This program prepares students to design, develop, and troubleshoot electrical systems and components across a range of industries, including aerospace, telecommunications, and robotics. The curriculum integrates fundamental electrical engineering concepts with advanced topics, equipping graduates with the skills necessary to tackle complex engineering challenges.
STEM Designated: The B.S. in Electrical Engineering program is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This designation emphasizes the program’s focus on technical and analytical skills essential for solving engineering problems. The STEM designation also benefits international students by providing extended Optional Practical Training (OPT) opportunities, allowing them to gain valuable work experience in the U.S. after graduation.
ABET-accredited: Embry-Riddle’s B.S. in Electrical Engineering program is accredited by the Accreditation Board for Engineering and Technology (ABET). This accreditation ensures that the program meets rigorous standards of quality and excellence in engineering education. ABET accreditation validates that the curriculum, faculty, and facilities align with industry standards and prepare students for professional practice in electrical engineering.
Curriculum: The curriculum for the B.S. in Electrical Engineering at Embry-Riddle combines theoretical knowledge with practical experience. Core courses include electrical circuits, signals and systems, electromagnetics, digital systems, and control systems. Students also have the opportunity to choose electives in specialized areas such as communications, power systems, and embedded systems. The program includes hands-on laboratory work and design projects, allowing students to apply their learning to real-world scenarios.
Research Focus: Research in the B.S. in Electrical Engineering program at Embry-Riddle focuses on innovative areas such as aerospace electronics, power systems, and communication technologies. Students can participate in research projects alongside faculty members, contributing to advancements in fields like satellite communications, radar systems, and energy-efficient technologies. The program fosters a research-driven environment, encouraging students to explore cutting-edge technologies and their applications.
Industry Engagement: The B.S. in Electrical Engineering program emphasizes strong industry engagement through partnerships with leading technology companies and aerospace organizations. Students benefit from internships, co-op opportunities, and industry-sponsored projects that provide practical experience and networking opportunities. These connections help students gain insights into industry trends and enhance their career readiness.
Global Perspective: Embry-Riddle’s B.S. in Electrical Engineering program incorporates a global perspective by addressing international trends and challenges in electrical engineering. The program prepares students to work in a globalized environment, with opportunities to engage in study abroad programs and collaborate on international research projects. This global approach ensures that graduates are well-equipped to address global engineering issues and work effectively in diverse settings.
Location
Daytona Beach, Florida, Prescott, Arizona
Score
IELTS 6
Tuition Fee
USD 44324
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 79 or higher.
- DET (Duolingo English Test): Minimum score of 105.
Embry-Riddle Aeronautical University offers several scholarships and financial aid options to international students to help make their education more affordable. Scholarships are typically awarded based on academic achievement, leadership, and other criteria.
International Presidential Scholarship: This scholarship is awarded to exceptional international students who demonstrate strong academic achievement. It's typically based on a student's high school GPA, standardized test scores, and leadership qualities. The scholarship amount may vary.
International Student Academic Scholarships: These scholarships are offered to international students who have achieved high academic performance. Eligibility is usually determined based on the applicant's high school or previous college academic record.
Talent-Based Scholarships: Embry-Riddle offers scholarships to students with exceptional talents in areas like aviation, engineering, and related fields. These scholarships are often awarded to students who have demonstrated outstanding achievements or contributions in their respective areas.
Aviation Scholarships: Given the university's strong focus on aviation, there are specific scholarships available for students pursuing degrees in aviation-related fields. These scholarships may be awarded based on factors like flight hours, certifications, or specialized skills.
Diversity Scholarships: Embry-Riddle is committed to promoting diversity and inclusion. Scholarships may be available to students from underrepresented backgrounds who can contribute to the university's diverse community.
Athletic Scholarships: For international students who excel in sports, athletic scholarships may be an option. These scholarships are typically awarded based on athletic performance and skills.
Study Abroad Scholarships: Embry-Riddle encourages international students to participate in study abroad programs. Scholarships may be available to help students fund these global learning experiences.
Endowed Scholarships: The university may have a variety of endowed scholarships funded by alumni and donors. These scholarships can cover a wide range of criteria and may have specific requirements.
Assistantships: While not traditional scholarships, assistantships provide opportunities for students to work part-time in various roles on campus. These roles can come with financial benefits, helping students cover their educational expenses.
External Scholarships: International students can also explore scholarship opportunities offered by external organizations, foundations, and government agencies in their home countries.
It's crucial for prospective international students to thoroughly research scholarship opportunities, understand the eligibility criteria, and meet application deadlines.
Graduates with a B.S. in Electrical Engineering from Embry-Riddle Aeronautical University are well-equipped to pursue diverse and rewarding careers in various fields of engineering and technology. The program’s rigorous curriculum and hands-on experience prepare students for roles that involve designing, developing, and managing electrical systems and technologies.
Electrical Engineer: Electrical engineers design, develop, and test electrical systems and equipment. They work on projects ranging from power generation and distribution systems to consumer electronics. Their responsibilities include ensuring system reliability, efficiency, and safety.
Electronics Engineer: Electronics engineers focus on the design and development of electronic devices and circuits. They work on a variety of technologies including communication systems, embedded systems, and digital electronics. Their work often involves prototyping, testing, and troubleshooting electronic components.
Power Systems Engineer: Power systems engineers specialize in the generation, transmission, and distribution of electrical power. They work on designing and optimizing power systems to ensure a stable and efficient supply of electricity, addressing challenges related to energy demand and renewable energy integration.
Control Systems Engineer: Control systems engineers design and implement systems that regulate and control machinery and processes. They work on automation projects for industries such as manufacturing, aerospace, and automotive, ensuring that systems operate smoothly and efficiently.
Communication Systems Engineer: Communication systems engineers work on the development and optimization of communication networks and systems. They are involved in designing and improving technologies such as satellite communications, wireless networks, and digital signal processing.
Embedded Systems Engineer: Embedded systems engineers design and develop embedded systems used in various applications, including automotive, aerospace, and consumer electronics. They work on integrating hardware and software to create efficient and reliable systems.
Aerospace Engineer: With a strong aerospace focus, some electrical engineering graduates may pursue careers in aerospace engineering, working on the development of avionics systems, satellite technology, and aircraft electronics.
Research and Development Engineer: R&D engineers work on innovative projects to advance technology and develop new products. They engage in experimental work, prototype development, and testing to push the boundaries of current engineering solutions.
Systems Engineer: Systems engineers focus on the overall design and integration of complex systems. They ensure that all components of a system work together effectively and address system-level challenges, particularly in industries such as aerospace and defense.
Project Engineer: Project engineers manage engineering projects from inception to completion. They coordinate tasks, manage resources, and oversee project execution to ensure that projects are completed on time, within budget, and to specification.
Consulting Engineer: Consulting engineers provide expert advice and solutions to clients across various industries. They use their specialized knowledge to solve engineering problems, improve systems, and implement best practices.
Field Service Engineer: Field service engineers provide on-site support and maintenance for electrical systems and equipment. They troubleshoot issues, perform repairs, and ensure that systems operate correctly in their installed environments.
